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PAM 形成一种非典型的 SCF 泛素连接酶复合物,该复合物使 NMNAT2 泛素化并降解。

PAM forms an atypical SCF ubiquitin ligase complex that ubiquitinates and degrades NMNAT2.

机构信息

From the Department of Neuroscience, The Scripps Research Institute, Scripps Florida, Jupiter, Florida 33458 and.

the Max Planck Florida Institute for Neuroscience, Jupiter, Florida 33458.

出版信息

J Biol Chem. 2018 Sep 7;293(36):13897-13909. doi: 10.1074/jbc.RA118.002176. Epub 2018 Jul 11.

DOI:10.1074/jbc.RA118.002176
PMID:29997255
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6130950/
Abstract

PHR (AM/ighwire/PM-1) proteins are conserved RING E3 ubiquitin ligases that function in developmental processes, such as axon termination and synapse formation, as well as axon degeneration. At present, our understanding of how PHR proteins form ubiquitin ligase complexes remains incomplete. Although genetic studies indicate NMNAT2 is an important mediator of PHR protein function in axon degeneration, it remains unknown how PHR proteins inhibit NMNAT2. Here, we decipher the biochemical basis for how the human PHR protein PAM, also called MYCBP2, forms a noncanonical kp/ullin/-box (SCF) complex that contains the F-box protein FBXO45 and SKP1 but lacks CUL1. We show FBXO45 does not simply function in substrate recognition but is important for assembly of the PAM/FBXO45/SKP1 complex. Interestingly, we demonstrate a novel role for SKP1 as an auxiliary component of the target recognition module that enhances binding of FBXO45 to NMNAT2. Finally, we provide biochemical evidence that PAM polyubiquitinates NMNAT2 and regulates NMNAT2 protein stability and degradation by the proteasome.

摘要

PHR(AM/ighwire/PM-1)蛋白是保守的 RING E3 泛素连接酶,它们在发育过程中发挥作用,如轴突终末和突触形成,以及轴突退化。目前,我们对 PHR 蛋白如何形成泛素连接酶复合物的理解仍然不完整。尽管遗传研究表明 NMNAT2 是 PHR 蛋白在轴突退化中功能的重要介导物,但 PHR 蛋白如何抑制 NMNAT2 仍不清楚。在这里,我们揭示了人类 PHR 蛋白 PAM(也称为 MYCBP2)形成非典型 kp/ullin/-box(SCF)复合物的生化基础,该复合物包含 F-box 蛋白 FBXO45 和 SKP1,但缺乏 CUL1。我们表明 FBXO45 并不仅仅在底物识别中发挥作用,而是对于 PAM/FBXO45/SKP1 复合物的组装很重要。有趣的是,我们证明了 SKP1 作为靶标识别模块的辅助成分的新作用,增强了 FBXO45 与 NMNAT2 的结合。最后,我们提供了生化证据表明 PAM 多泛素化 NMNAT2,并通过蛋白酶体调节 NMNAT2 蛋白的稳定性和降解。

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